Pasteurizing apparatus.



110. 000,012. PATENTED @11.28, 1908. Y

- J. T. H. PAUL.

PASEURZNG APPARATUS. APPLIOAToN FILED .TUNE 17,1007.

s SHBETSQSHEBT 1.

ggg /f PATENTED APR. 28, 1908.

J. T. H. PAUL.

PASTEURIZING APPARATUS.

APPLIUATION FILED JUNE 17.1907.

SSHBETS-SHEET 2.

K PATENTED APR. 28, 1908.

Noyssmz.

J. T. H. PAUL.

PASTEURIZING APARATUS.

'APPLICATION FXLED JUN 17.1907.

8 SHEETS-SHUT s.

*N01 886,012. PATPNTPD APR. 28, 1908.

' J. T. H. PAUL.

PASTPURIZING APPARATUS. APPLICATION FILED JUNE' 17. 190.7.

8 SHEETS-SHEET 4.

FWN/M,

WWII/W07] No. 886,012. PATENTED APR. 28, 1908.

J. T. H. PAUL.

PASTEURZING APPARATUS. APLIGATION FILED mim 17,1907.

8 SHEETS-SHEET' 5.

.g5-EMM PATENTED APR. 28, 1908,

J. T. H AHL PASTEURIZING APPARATUS. APPLICATION FILED JUNE 17,1907.

PTENTED APR. 28, 1908.

J. T. H. PAUL. PASTEURIZING APPARATUS.

APPLICATION FILED JUNE17,1`907.

8 SHEETS-SHEET 7.

PATENTED APR.28, 1908. J. T. H. PAUL.

PASTBURIZING APPARATUS.

APPLICATION FILED JUNE 17,1907.

.a SEEETS SHEET 8 www f UNITED @mee i JOHN T. H.. PAUL, oF CHICAGO, lLLINoIsAssrGNORmoisi-GOLDMAN afcoivirANY, ING., OF

y oHIcAGdILLINors A'conronarron ovrfrLLiNoIs PASTEURIZING Arraiaa'rns. .1

speeiacation or Letters raten. l YParavented'aprii 28, 190s.

Application'aied Julie 1r, 1907. seriainaevaeeo. 1

To all whom it mayI concern:

A', Be it known that I, JOHN T. PAUL, a

citizen'of the United States, residing atChiL cago, 'in the county of'Cook and State of Illinois, have invented a new and useful-lmprovenient in Pasteurizing Apparatus, of

` which the following vis-a' specification.

This invention relates to improvements in lpasteurizing apparatus of the variety in .whichthe substance to be sterilized-beer in bottles, for exam le-is introduced-into a tank containing tie sterilizing liquid (more usually water) and is ermitted to remain stationary in the liquir while the latter is gradually raised to the sterilizing temperature and maintained thereat for the proper length of time, after which the temperature of the liquid is gradually reduced preparatory to removingthe sterilized materia rom thetank. The invention involves the employment of a plurality of tanks, or compartments inv aA single tank, of vwhich at least three are required (though thefnumber may be greater) to enable the sterilizing operation to be practiced continuously, in the sensi` of being un interrupted by the removal of material that has been sterilized for introduction of material to be sterilized,` by a novel'manner of controlling the production of `different stages of temperature of the liquidl sterilizing rnedium in the several tanks; and the primary object of myz lnvention 1s to enable such con- Y trol to be had from a single point on the aparatus by manipulating a sin lesuitab e andle. (.ertain. features of ,my invention may be used tol advanta e, however, irrel spective of the number o tanks employed,

sterilizing medium should, for the sake of economy in time,` be performed incompara!- tively short periods; and the presentA appara# tus, involving a plurality of tanks or oompartments, is peculiarly adapted for 'such For the sterilization of suchproducts,

. suction-Controlli work, because of: the aforesaid continuous practice which the apparatus makes possible. In the accompanying drawings-Figure 'l `is a diagrammatioview showing the entire on Fig. 2, showing the valve-operating shaft and one of the four valves geared thereto. E Fig. 5 is-an enlarged section taken at the line' C on Fig. l, showinA the valve-construction employed for contro ling the overiiow from, and-transfer between, tanks of the sterilizing liquid; Fig, 6', asimilar view on the line D on Fig. l, showing the valve construction for` controlling. the Iliquid discharge from the pump through anexternal heating device, to a tank, the same construction of valve being employed for controlling .the suction to the pump;4 Fig. 7 is an enlargedv sectional view on theline .l2 on'Fig. 8, showing a preferred construction'of thermostat used for controlling the supply of steam forheating the waterin its course to the tanks, and Fig.r8 is a section of the same on line F of Fig. 7 or Fig. 1. Fig. 9 shows by a broken view in sectional elevation the preferred construction of jet-punipefmployed for heating the sterilizinnr liquid on its Way to the tanks, and Fig. l0 sliowsby a similaryiew the construction for' operating the steam-valve of the jet by air-pressure controlled by the thermostat, this viewvbeing a continuation of. Fi 9. Fig. 1l is a secti'ontaken at the line i on Fig. l or Fig'..5, showing the transfer-valve by six views, each representing a different position which it assumes in .the operation of the apparatus', Fig. 11SL shows the same of the overflow controlling portion of that. valve by a section at line G1 on Fig. 1 or Fig.

5; Fig. 12 shows in the same Way, by an en- .10o

larged sectionalu'viewon vthe line H of Fig. 1, the sucoesdsivmpositions assumed' bythe steam-valvej.y F `3 is an enlarged section taken at 'the lon Fig. 1', showing the representinglagdi erentpo'sition which it assumes in tlie'oper'ation of the apparatus, and

Fig. 14 show'sltlielsarne' lwith relation tothe l ump-'discharge controlling 'valve by an enarged section taken at the line J on Fig.l "l: 110,

. '65 through the hand-wheel, taken at the line B ng valve by six views, each wat-er from onetank to another.

but showing a 1 modifiedconstruction of the valve of that iigure, the sections being taken at the iine on Fig. '16,A or atthe line K through Figs?. 17 18 and 19; and Fig. 16 is a -vie'w in the nature of a diagram, showing this Vsame valve, by a reduced section `taken at the line L on Fig. 15, and a supplemental centrifugal pump communicating with the valve to' produce, by pumping instead of gravity-How, the transfer. of the sterilizing Fig; 17 is a view like that presented in Fig. 11, being a section' taken at the line M on Fig. '15, showing the six different positions assumed by the 'upper ortion of` the transfer-valve of Fig. 15 in t ie modified opleration of the apparatus; Fig. 18 shows t e same of the intermediate portion. of the modified transfervalve, the section being taken at the line N on Fig. 15, and Fig. 19 shows the same, by a section taken at the line O on Fig. 15, of

the lower, overflow-portion of the modified valve.

Referriinlr particularly to Fight 1, three similar tanks, numbered l, 2and3',respectively, are supported in separated relation on a common horizontal base 4 and are surmounted by parallel rails forming a track 5 for a traveling gauntree 6, of any suitable construction. The construction represented is that of .a 'rectangular braced frame on 'wheels and ada ted to receive a two-shelf rack 7 each shei serving to support a plurality ofy bottle containing baskets (not shownlg' and on the frame is mounted a hydraulic-hit device 8 having a hook 9 suspended ironpits piston to engage separably with aneye 10 on the rack for lowering and raisingit into and out of a tank, in which it iits and with the height of which it corresponds, at leastappro'ximately.

It may here be stated that the apparatus shown is more sterilizing beer in ottles by raising the temperature oi the water employed to the sterilizingv tem erature at-140 F., or thereabout;

`but it wil be-understood that the invention' is not in any sense restricted with regard to .the particular substance to be sterilized. 4

y A centrifugal pump indicated at 11 in F ig.

' 1 is driven by a shaft-connection with a suit-- able motor, preferably electric, indicated at 412. Owing `to the dia raniniatic nature of the view selected fori lustration in Fig. 1, the pump and motor are represented below the tanks, but it will beV understood that they may occupy, in practice, positions on. a level with the base 4; and that the various pipeconnections, diagraininatically represented in the iigure, may all occupy,v with the valves andother mechanism connected with them, space in the planebetween thev upper and lower end-s of the tanks on one, side of lthe latter. l

particularly designed forv Each tank is' provided inone side near its upper end with an opening indicated atl 13, which may be termed an overflow and transfer port. Below this opening, in the same side of each tank, is provided an opening indicated at '14, which may be termed the suction-port, because it communicates with the termed a return-port, because it communicates with the discharge-side ci the pump'. From the ports 13 lead, respectively, pipes ing the construction hereinafter described. From the ports 14 iead the pipes 2i), 21 and 22, respectively, to a valve-device 23 involving 'the construction hereinafter' described; and pipes 2li, 25 and 26 lead, respectively, from the ports 15 to a valve-device 2.7 iiivolving the saine construction as the valvedevice 23. A pipe 28 containing a thermonieter 29, communicates tlirongh a 82 -a liet-pump device, hereinafter described, above which is connected with it at a-T a steam-supply pipe 33 having interposed in it `a valve-device 34, hereinafter described. The pipe 28 terminates in a diaphragm-device 35, communicating from above the diaphragm through an air-pipe 36, containing a pressure-gage A37', with a thermostat-deviee 38, of any suitable construction, suoli that the thermostat-device through a pipe 3 A suction-pipe 40 {,:onnects the valve 235 with the pnii'ip and contains a thermometer -11.

as to a sewer, and each tank is equipped with a valvedfdraw-oif pipe 43, which may lead to the sewer; l

Each of the. valves 19, 23, 27 and 34 consists, generally stated, of avcasing'containing a rotary tapering plug-valve, provided with variety.v Adjacent to these valves is journaled, in a bracket 44; at its upper end and'in a bearing 45 at its lower end, a vertical `spindle 46. On this vspindle are provided a pinion 47 meshing with a gear 48 on the stein oi the valve 219, and having a'fsiX-to-one diameter relative to thepinionya pinion -19 meshing with a gear 50 von the stein of, the valve 34 and having a four-to-one diameter relative toits pinion, a pinion 51 meshing with a gear 52 on the stem ofthe valve '23,

.the stein of the valve 27. These two histnained pinions are "alike, as also are the two last-named goarsand have the sainerelative diameter, namely. siX-to-.one, as the pinion '47 and gear 48.

The detailed construction of the valve-dehereinafter described. Air'under pressure is' supplied from a proper source (not shown) to n ports, the valvel being of the straigliiway vice'19 is most clearly-shown in Figs. 5, 11-

suction-side of the pump. Still lower down in the saine side of eachl tank is provided anv opening indicated i at 15, which may be' 16, '17a-nd 18 to a valve-device 19 involv-l branch 3G with vthe puinp 11 and contains at A discharge pipe Li2 leads from the valve 19,

and apinion 53 meshing with a gear 54 on seems' .liandii'lli i. Its rotary hollow plug contains the two lateral ports 55 and 56, a partition ,57i in the plane of the points of communicav`tion with thevalve-casing of the pipes 16, y17 and 18, and a discharge-port 58 in its lower end communicating with the pipe 42.

' The detailed construction of the valve-der'vice 34 is only represented in horizontal sec- `tion in Fig'. 12 as involving a hollow plug 59 having the opposite side-ports 60 and 61 communicating with vthe casing in which the plug is contained.

VIn Figs. 6, 13 and 14 is shown the detailed construction of the valve-devices 23 and 27, the irst-named involving the rotary plug in its` casing containing the two similar lateral "portsf62 and 63,A close together, and the i smaller lateral port 64, for the purpose hereinaiter` described, and the last-named having its rotaryplug provided with two similar lateral site eac other and with the lnear theport 66.

The jet-pump device 32, shown in detail in Figs. 9 and 10, comprises the following-desmaller port 67 :ascribed construction: Into y, the T-coupling 167 connecting the steam-pipe 33, which contains a'shut-off valve 68, with the pipe 28,l

is projected a downwardly-tapering nozzle plug-valve 70 pinned on a vertical reciprocable stein 71. Within the coupling 16,7 is supported about the nozzle a mixing-chamber 72, of a generally tapering shape, .containing lateral inlet-ports 73, and discharging into a `downwardly tapering mixing-- chamber-74 on the lower end' of the casing in a tubular connection 75 thereof with the i. pipe 28. The valv'el 70 contains a central -discharge-opening 76, of small bore, extending through its lower end from near its transverse center, where ports 77I are provided to adapt the bore to have open communication with the interior of the nozzle 69, whereby a relatively small quantity of steam may always leak through the valve, -even when it is seated. The nozzle 69 terminates at its upperv end in a diaphragm-device 35, consisting of a casing 78 supported onarms 79 extending from the nozzleand having its base formed of a flexiblev diaphragm 80 centrally to` which is fastened the valve-stem 71 having confined about-it a spiral spring 81 v air-pressure against the upper side of 'thel latter.

tending to raise the valve from its'seat by raising the diaphragm, upon reducing the Interposed between the air-pipe 36 which. leads from the diaphragm-chamber, and the air-supply pipe 39, is the thermostat- 'device 38 shown in Figs.v 7 and 8 to involve l the following construction: The valve 23 is 't through a pipe 82 (Fig. 8) byfmeans of aconnected `from the` lower end of its casing suitable coupling 83 with vthe pipe 40, which 65 leads to the pump. In a reducer 84 screwed ports 65 and 66 diametrically oppo-l 69, in which seatsa correspondingly shaped steam.

into one end of the T-eoupling 83 is screwed the thermostat proper, consisting'o a tube 85 closed at one end as by a plug 86, and

adapted to contain alluid, Suchasfether, that` will expand and contract under variations in temperature, this tube terminating at its opposite end in agoose-neck 87 containing areduced bore 88, and ending in a disk-shaped head 89 upon which is secured, by a ring-nut` 90 screwed upon the disk, a diaphragm 91, to

the center of which the bore in the gooseneck opens. This goose-neck end of the thermostat enters a casing 92 in which is fulcrumed on the ring 90 an angular lever 93 bearing at one end against the center of the diaphragm 91 and having a threaded vertical opening in its opposite end to receive a screw 94 passing through an Opening 95 in the casing, beyond which it carries a diallinger 96 within the casing 97 of asuitable dial, for the purposeA hereinafter explained.

lVithin the casing-92 the air-supply p'ipe 39 and air-conducting pipe 36'leading' to the diaphragm-device 3 5, are coupled together I by a head 98 havinga bracket-extension 99,

at which it is screwed toan inner wall of the' .casing-1. The head 98 contains a valve-v vchamber 100 in which is housed a ball-valve 101 supported on a spring 102 in the passage leading from the end of the pipe 39 in the head, and a plunger-rod103, passing through arelatively wide bore 104 in a screwed into the upper end of t e ead, bears at one encl against .the ball-valvefan'd coincides at its opposite end with the screw 94. By means ofvthis.thermostat-device,V

when Water passing through the pipe 40 at-. tains a certainpredeterrnined temperature,

described; until the water inthe' pipe 40v isA properly lowered-in temperature to contract the 'thermostat-Huid and permit-consequent lowering ofthe diaphragm 91 to be followed by the contacting end of the lever 93 under the recoil-action olf' the spring 102 toraise'the ball 101v against its seat and shut off the airsupply to the pipe 36. Thereupon the air under pressure against the diaphragm`80` -escapes by way of the pipe 36through the opening 104 about the plunger 103 working in 'the plug '105, and discharges throughfa vent-opening 106 in the casing 92, with the result that the spring 81 is freed to restore the diaphragm 80 to` its normal position of opening the valve Thusopening the valve ad-r 70 for resuming .the flow of moves to indicate the y perature for the'run of t higher temperature oi the thermostat-fluid will required to ei'l`ect opening of the valve 10.1. The dial-,device 97 may be set -for shutting oill the ysteam .at any desired tenin perature by removing the cover With which itis shown to be provided in Fig. 8 (and y which should be transparent) to permit access to the ngerfor turning it to Work the screws 94 and for setting the finger with relation to a suitable gage (not shown) marked on' the dial over Which theiinger predetermined terne apparatus.

i spindle 46, which Works the dilierent :ige ar'ed ,valves of the apparatus as and for the l.pier-'pose heroine-iter described, carries on its `upper end a handwvheel- 107 equipped with' crank-handle 103. The bracket la f -f forming theupper bearing for the spindle `*contains a circillar recess 169 (Fig. et) in its 30 up er face to avil'orda hearing for the llanged dis r-like head 11,0 on thev hub of the hand- Wheel. Diametricaily opposite the handle '108 is provided, in the wheel 167, in a housing depending from it, a sprinZ` pressed plunger-rod 1111 adapted to register with a socket 112 in the bracket in each coni-- plete revolution ci: the "1 "f liand-wheel against in; complete turn, hy engagea-lint o; ...ie pin 111 with its retaiiiingsoclret, and requiring the pin to be raised preliminary to. each opera` tion oi the/spindle. Moreover, it is important for reasons which will be appa-rent from.

the description of the operation, hereinafter contained, that reversal. of the-turning4r of the spindle shall be prevented. To accomplish this purpose, a suitable clutch-device provided., that shown being of ivell-known construction consisting of' a spring -pressed roller 113 coniined ina recess 114 provided in the disk-heady 110, With itslower end bearing against the base ci the recess 109, whereby any attempt to turn the handvlieel backward will crowd the roller against the wall of the', recess and bind the hub-disk, which is keyed to the spindle, against reverse turning.

'The operation is as follows: The tanks 1,

l 2 and 3 are filled with cold Water up to the ports 413 introducing the Water, as by means oi' a-.hos through the tops oi the tanks. illacli .nk stored in it( as a suitable place of storage, because thereby taking up stl er storage 'ooifn is avoided, a rack 7. f intree moved its track over the seems tank 1 and operated .to lower thehookQ therein for coupling it with the rack in that tank, when the gauntree is operatedto elevate i the rack out of the tank to enable it to be l' I column. on sheet 6 under the heading 1st,"75

position. That is to say, the u per or "''tifrnisfei'J port of the valve. 19 is c osed to l .the pipes 16, 17 and 18, theA lower or oven flow portion of the valve-:isopen to these pipes; the steam valve 34 lopens the pipe 33; the valve 23 is closed to the pi e 21 but open to the pipes and 22; and t e valve 27 .is

clos-ed to the pipe/25` but open to the ipes 24;4

and 26. lt may be stated here t at the most 'desirable position for these pipes 16, 17 and 18 and the valve 1,9 is in horizontal alinement with the ports13 to produce a level flow in the transferring of Water in one tankl to another into the top. thereof for the purpose hereinafter described. After the rack has been lowered by the gauntree'into the iirst tank, the Water in Which is to be heated, and the gauntree has been released from that rack and its hook 9 raised, the operator turns on stearnvby opening the valve 68. Thus live steam courses through the pipe 33, valve 34 and jet-pump 32. 11 is started to suck a relatively small quantity of Water from the tank 3 through the pipe 22 and small port 64 in valve 23, whence it discharges through the end-port in this valve into pipes and -10 to enter the pump. The water sucked by thcaction of the pump in relatively larger quantity through the pipe 20 enters the valve 23 at its port 63 and also discharges to the pipes 82 and to enter the pump, whence it enters the steam-jet device by Way of the pipe 30 and encounters the steam, mixing thoroughly therewith in the chambers 'of the jet-device and becoming heated. .The heated Water then passes through the connection and pipe 23 into the valve 27 through its endport, escaping from that valve in relatively large quantity through the port 65 and pipe 2li to return to the tank 1, and through the port 67, in relatively small quantity, to enter the tank 3 by Way of the pipe 2 6. This action is maintained throughout a period sufcient to heat/the Water inthe tankv 1 to the sterilizing temperature,'which is 140o F.,

Meantime, the pump the -time consumed beingaboutl twenty minutes; and this condition is maintained iorfan' additionalperiod of about thirty minutes. The heated return-Water Which entersithe tank' 3 preliminarily heats the Wat-er in that tank, though this preliminary i heating-isa mere incident, occurring because oi' the provision of the small port. in thevalve, Whichvservesfanother purpose herein# acacia 'after explained; While so heating. the tank 1., the gauntree is moved over tank 2 and the rack therein raised and `filled and lowered back into that tank.

At the end of the' twenty-minute period above referred to,- the operator raises the pin 111 to free the wheel 107, which he then rotates through a complete turn, revolving the vvalves 19, 23 and 27 through one-sixth of a revolution and the valve 34 through onefourth of a revolution, thereby turning these valvesA to the positions represented in the vertical column headed 2nd position.f Thus the steain-supply is shut olf through the valve 34, the valve 19 is opened to the pipes 17'and 18 with its lower part closed to the overflow, the valve 23 isopened to the l pipe 21 and the valve 27 is opened to the pipe 26 with the following results The water preliminarily heated in the tank 3 flows Atherefrom through the level pipe 18, valve 19 and pipe 17 upon the water in the tank 2, from the lower part of which the colder water in the tank vis suckedlby the pump through the pipe 21, valve 23 and. pipes 32 and 40, and

discharged'through the pipe 30 into the jet- 1 device 32, whence, by way of the pipe 28,

-it enters the valve 27 to be discharged f through the pipe 26 into the tank 3 at thev hase' thereof. lhis action consumes a period yof about -five` minutes, during which the s'terilizing temperature in tank 1 will not be -materially reduced. As soon as this transfer from tank 3 to tank 2 is completed, the hand-wheel is again turned through a complete revolution to bring the geared valves .to- 'the position represented inl column 3, headed Jl3rd position, with the following results: rlhe valve 19 is closed to the pipes 16,' 17 and 18, thereby shutting off the transfer between the tanks 2 and 3 and opening the three tanks to the overflow to permit any increase of level in the tanks, due to the condensed steam, '.to run into the sewer; the steam-valve 34 'is opened to thel iet-pump the valve 23 is closed to the pipe 22,but open to the pipe 21 to permit the pump to suck the'contents of tank 2 and heat the same in the"jet e' device, whence Vthe heatedA water 'passes through pipe 28 and valve 27 into pipe to enter the'bottorn of tank 2 and heat as i's added to the contents Voftank Lby'th'e heating water introduced into it through the port 64 and pipe 20,' whence it again enters the pump. This operation also consumesa period r. of 'about twenty minutes. Meantime the gauntree will have been moved over tank 3A to raise the rack therein to hefilled with bottles and lower the filled rack 'into the V tank At the end of this period of'twenty` minutes, when the water. in the tank 2 has ,reached the pasteurizing temperature, another complete turn vof the hand-wheel is made, thereby bringing the geared valves 'to the position represented in the fourth column headed 4th position, with the following results: The water in tank 1 is transferred into the top of tank 3, the overiiow from both these tanks is shut o'fl", valve 34 is closed, valve 23 is opened to pipe 22 to' cause the pump to suck the cold water from tank 3 and introduce it to the steam-jet device, and

valve 27 is opened to pipe 24, whereby this heated water enters the lower port in valve 27 and passes therefrom through pipe 24 into the bottom of tank 1 to cool the water therein, after the beer in that tank has been sterilized, down to 'the temperature at which the bottles may be removed without danger of .fracturing them, This operation oonsumes av period of aboutfive minutes, and

the Water in tank 3` has next to be heated to the sterilizing temperature, while maintaining the Water in tank 2 at that temperature. These functions ensue from another complete turn of the hand-wheel to bring the geared valves to the positions' represented in the fifth column, headed 5th position, whereby the following-described conditions are produced: The valve 19 is closed to the vpipes 16, -17 and 18, while itis open to the overflow "through those pipes; the steamvalve 34 is open; valve 23 is open to the pipe 22 to permit the pump to suckthe cold water from tank 3 through pipes 82 and 4() into the steam-jet device; and valve 27 is open to pipe 26 to permit the water thus Aheated to return through pipe .26 to tank 3 for raising the water therein to the sterilizing temperature, a portlon of this heated water' passing through the smaller4 port in.

valve 27, by way'of the pipe 25, into tank 2- to maintain the water in. the latter at the required temperature of 1400 F.

While tank 3 is being heated, the gauntree is being manipulated to raise the rack out'of tank 1, permit the pasteurized beer to be taken out, and permit the rack to be refilled with bottles of unpasteurized heer and lowered into that tank. When the temperature in tank' 3 has been raised to that required for sterilizing, consuming a period of about twenty minutes, the operator vagain makes a complete rotation of the hand-Wheel, thereby bringing the geared valves to the -positions represented in the sixth column headed lfth position,` with the following-described results: The valve1`9 is open to pipes 17 'and 16 to permit the transfer of the hot water in tank 2 tothe top of the cold water in tank 1 4 the overflow through thisvalve' bein shut of'f, and 'the steam-valve -34 vbeing c'osed;

rvalvef23 open tothe pipe,'20'-to"perniit the 'cold Water in tank 1 to be 'sucked bythe acl tion of the pump through the vsteam-i deall ot' the tanks employe vice (but, ot course, without heating the water), and the vvalve 27 is open to the pipe 25 to take the water from tank 1 into the `nottorn of tank 2 for cooling that tank down to the proper temperature for removing therefrom the.loottlesoi pasteurized beer. This .operation consumes a period of about tive minutes, at the end oiwhich anothercomplete turn of the hand-wheel brings 'the geared valves to"1st position, thert 'closing the transfer-valve between the tana l and 2 and vopening .the overfiow ports or that vvalve,'as also opening the steam. vsive to the jet-pump and the suction-valve and delivery-valve 27 for circulating the water in tankl out of, and into the same and gradually heatingr it to' the pastcurizing ten ocra-- ture, as described of the tirs-t operation, which is'thus repeated.

The successive operations of the handwheel for producing the six dilierent positions of thegeared valves n'W he repeated often as required. for completing a run o; apparatus on a quantity ci the materia-l to he sterilized, and at the end cii the run the water in each tank may be drawn f* into the sewer on opening the valves in the g es i3, though the water in the tanks may he used over and over again, during Weeks, without changing.

` From the foregoing description of the mechanism. and its ov eration, it will be readily understood that t e sterilizing procedure is rendered continuous, in the sense of maintaining ed in interrupted. simultaneo only. in them use for conductin di'li'erent steps of t. e process, though when a heat the bottles therein, from whiclrlast-4 ing was performed, for cooling the bottles.` -All of these ope-rations are performed by greater number of tanks than three is einployed, the same step 'of sterilizing, heating j to the sterilizing temperature, or cooling the sterilizing liquid, may be practiced simultaneously in each of two 'or vmore of the tanks, without departing from the principle ot the operation of the described apparatus, lt will be apparent, moreoventhat the operation consists, generally stated, in circulating the Water in each tank in'succession, beginf ning with any one, out of that tank-through an extraneous heater and back into the same tank to raise the liquid gradually to the sterilizing temperature, utilizing the heated waterof one tank after it has performed its sterilizing function therein, (during which it is maintained at the. properutemperature by introduction into it through-the heater of a relatively small quantity ofivater from another tank) through a'valve port 67l to displace the colder waterin another tank to preliminarily named tank such colder water. is meantime transferred' to the tank in which the sterilizmere turning of the hand-wheel, which can not be turned too far'or vreversed to disorganandere the advantage of economy ensues; and thisi-\ advantage lis greatly enhanced by heating the wafrr; tor raising that in each tank to the ihzing temperature, extraneously of the tank, since thereby the heating is rendered uniform instead of' stratifying ,the heat". thrr h the water, which is thus reduced to a n .to it to gradually raise the .atnre in the tank to that required for ing and avoid or greatlyreduce the cation referred to would result from injecting steam' directly into the tanks, and even the provision of steam-coils in the tanks for heating the water would not etlect the desired uniform heating thereof. These objectionsA are completely avoided hy the action of theA iet-pu p in thoroughly mixing the steam with not accomplish hecause oi its `heat-stratir'yl l eurer, tendency to stratin a tankA at the stcrilizing uro, srevcuted hy the continued. circula on ther hrough the medium of the supply of it( ted water which is introduced into that tank through a small 'valveport, hereinhetcre described. p

i/Vhile the steam-jet device might beused to the exclusion of the pump, it would require too great pressure to ne economical, so that it is preerred 'to supplement its action by that of the puni As will be rea ized, in providing!v as herein describe@ forthe transfer from one tank. to another of the sterilizing-water by mere flow, unless the pipes through which such flow takes place are oi adequately large diameter, the low is undesirably slow. To avoid 'the use of such large pipes the ilow may b e expedited through suitable narrower ones-by the modiiiedconstruction illustrated in Figs. 15 to.19, inclusive, of which the following is a description: The valve 19 is supplantedby a valve 199 carrying the Gear-Wheel 48 .tovmesh with the pinion 47 on t e operating-stem 46. The casing of-this valve 199, shown with a bonnet l200 forming its lower end to whichthe sewer-pipe 42 leads, has the pipes 16, 17 and 18 connected with it, andl isprovided in vthe plane betweenthe pipes 16 and 18, with an upper nozzle 20,1 and 'a similar lower nozrzle 202 at which to connect la centrifugal pump 203, like thepurn 11 andalso on the shaft of the inotor 12, t e connection; being made ot the nozzle 201 with the suction-side of the pump 203 through a pipe 204. (Fig. 16) i and of the nozzle 202 with the discharge-side of thatpump-throu h a pipe205. The -rotary tapering 4plug o "this modified valve has an upper section 'containing the tourA ports of breaking the hotties; The stratiii- .Y

iewater, which merc steam-jet would l l l 206, 207, 208and 209, With which section the nozzle 201 registers, an intermediate section with Which the nozzle 202 registers, containing the four ports 210, 211, 212 and 213, this A section being divided from the upper section' 'by a. horizontal partition 214, vand a lower, overflow-'section having ports 215, 216 and 217 adapted to register with similar ports in the casing, open tothe bonnet 200. At each lo junction with the casing of a pipe 16, 17, 18 av passage 218 leads'from such connection in lthe casing to ports in the intermediate section of the valve-device with which the ports in that section of the plug-valve are adapted to register. `With this modified construction in use, the operation becomes the following in transferring the Water from one tank I to another: The pump 203 being on the same motor-shaft with the pump 11 is, like the latter', in continuous motion under the Working of the motor 12, though, obviously, neither pump produces circulation through transfer pipes 16, 17 18 when the valve to which theyare connected shuts off their intercommunication, as in the first,'third and fifth positions in Fig. 11 and in 17. With the valve 199 in the condition represented in Figs. 17, 18 and 19 in 'the column headed 1st position, as also'in the third SO and fifth positions, no circulation ensues through the transfer-pipes because the valve shuts off communication between the nozzles 201 and 202 (pipes 205 and 204), though the overflow-section of the valve is open; While in the 2nd position of the valve, wherein its overflow-section (Fig. 19) is closed, the `port 2,13 registers With the pipe' 205 (nozzle 202), its port211 With the'pipe 17, its port 209 With the pipe 20e1 (nozzle 201) '40 and its port 208'With the ipe 18, thereby permitting the action oi'tle pump 203 to transfer the Water from tank 3 through pipes 18, 204, and the pump and thence through the pipe 205, ports 213 and 211 and pipe 17 into the tank 2. With this valve in the 4th position, the pump 203 transfers the Water from tank 1 through pipe 16, ports 2,08, 207 and pipe 204, and through pipe 205, ports 212 and 211 and pipe 18 into tank 3; and in the 6th position of the valve, the puin transfers the Water from tank 2 through ports 208'and 209 and pipe 204, and through -pipp 205, ports 210, 211 and pipe 16 into tan i 1.v

, What I claimas new, and desire to secure A by Letters Patent, is:

1. In a pasteurizing apparatus, the combination with a plurality of tanks for the sterilizing liquid in each one of which the complete 60 pasteurization is effected,` of a svstem of pipes communicating with all said tanks, and

valves in said pipes for controllingthe flow` of the liquid from any tank to any other tank,` ywhereby the temperature of the liquid in one i 6,5 tank is raised, the temperature of the liquid in anotherv tarik'kept,substantially stationary, and in althird tank reduced.

2. In a' pasteurizing apparatus, theI combination With ,a plurality of tanks for the sterilizing liquid in neach one of'which, theomplete pasteurization is eected, of a series ein et pipes one for each tank, said series having al .common valve, and-a series of outlet pipes .one for each tank, sald series having a common valve whereby the florv of the liquid is controlled. y Y

3. In aA asteurizing apparatnaPt-hecombination Wit a plurality of .tanks for the steril- I izing liquid in each one of which the complete pasteurization ,is effected, oflasystem of 30 pipes commi'inicating with .all of said tanks, valves in said pipes for controlling the flow ofthe liquid from any tank to any other tank and a heating device in said system, said parts operating so that the tem eratuie of 35' the liquid in onetank is raise while the temperature of the liquid in another tank is kept stationary, and in a third tank reduced. 4. In alpasteurizing apparatus, the combination with a plurality of tanks for thesterilizing liquid in each one' of which the complete pasteurization is effected, of a system of pipescommunicating with allof said tanks, valves in said pipes for controlling the flowo'f the liquid, and connections between said 95 valves adapting themA to be simultaneously set by a single operation, said parts operating so that while the temperature of the liquid inl(A one tank is being raised the temperature of the liquid in another tank is kept'substan- 10o tially stationary, and ina third tank reduced.

' 5. In a pasteurizing apparatus, the combination With a plurality of tanksfor thesterilizing liquid' in each one of which the complete pasteurization is effected, of alsYStem of out- 105 flow and return pipes through which said tanks interoommunicate valves in said pipes for controlling the flow of liquidfrom any tank to any 4other tank, a pump and heater in said pipe system, said parts being adapted and arranged so that While the temperature ofthe liquidin one tank is being raised the temperature of the liquid in another tank is heldv substantially stationary, and in a third tank reduced. V

nation with a Epluralityof tanks for-thesterilizing rliquid in each one of'which the complete II'.

pasteurization-is effected, a system of out- How and returnpipes through which said 112,0 tanks -intercommunicate valves in said pipes-f 1 i fory controlling the' flow of (liquid. from any tank to"a ny other tank, a'liqu- 1115. v6. Inapasteurizing apparatus, theeon'rbiamg steam jet pump in said pipe', said partsfl-beingl hy setting them to iz g liquid, a system of outflow and return pipes extraneous 4of the tanks, through iafhich' they i'ntercommunicate, a pump and heater in said pipe-system, rotary valves in the pipes, andA non-reversible' gear-connections between thev valves operative from a.

single point onv the a paratus to simultaneously set the severa valves for control-v ling the llow tanks.

8. ln a pasteurizing apparatus, the combination of a plurality of tanks for the steriliaing liquid, a system of outflow and return extraneous ofjtlie tanks, through 'hey intercommunicate, a pump and er insaid pipe-system, valves' in the pipes, and an operating spindle on the apparatus having gear-connections vwith the val-ves for simultaneously turning and therecontrol the floW o f.1the

of. theliquid to andr'om' the liquid to andfrom the tanks.

9. ln a pasteurizing apparatus,`- the comhination of a plurality of tanks for-the steril-. liquid, a system of outflow and return izing liquid, a system of outflow and returnv pilples extraneous ofthe tanks', through W they intercenimunicate, a pump and heater in said pipe-system, valves inthe pipes, an operating spindle rotatably supported on the apparatus, having gear-con-- nections with the valves for simultaneously turning. them, and thereby setting themto changek such intercommunication by each com lete rotation 'of the spindle, to control the oW-of the liquid lto and from the tanks, and a releasable lock for the'spindle operating to arrest it at the end of each complete rotation thereof. c

1,1. ln'a pasteurizing apparatus, the combinationof a plurality of 'tanks for the sterilnizing 'li uid having valved circulating-pipe connections forthe liquid, a steam-jet pump in .the circulation constructed vand'farranged to heatthje liquid-and circulate it simultaneously through said connections in relavely larger and smaller `quantities into. dif- Frent "tanks,

l2. 'ln a" iiatien'o g liquid;

uraiity ef tanks for' the sterilbination of a plurality of tanks for the sterilintercommunicate, a pump and. heater 1n said pipe-system, valves 1n the bination of i teuriziug apparatus, the com'- of. cutiiowand returnl through which said tankslintei'comv artitien-'seuarating them andV municate, a pump nd heater in saidpipesystem,l and valves in the pipes for opening l liquid, valve-controlled heating-means' .for said liquid', transiter-pipes communicating with the tanks, and a valve common to' said v vpipes for controllingthe transfer through' them of said liquid iroinone to another of the tanks, said valve having an overlleW-section With a discharge-pipe leadingv therefrom.

14. In a pasteurizing apparatus, the combination of apluiality of tanks for the sterilizing liquid., Valve-controlled heating-means for said liquid, transfer-pipes communicating with the tanks, a pump, a valve common to said pipes, andsuction and discharge pipes" connecting the pump with said valve.

l5. .ln apasteurizing apparatus, the coinbination of a plurality of tanks for the sterilizing liquidJ valve-controlled heating-means for said liquid, transfer-pipes communicat;` sg vwith the tanks, a pump, a valve common .e said pipes, havingvtwo sections, one abca the other and communicating with ea otherfand. suction and. discharge-pipes es connecting the pump with one of said va sections.

. 16. In a pasteurizing apparatus, the coina plurality eitanks for the steril.- izing liquid, valve-controlled heating-means for said liquid extraneous of the' tanks, transfer-pipes communicating With the tanks, a pump, a valve common to said pipes, having inter-communicating upper and interlmediate sections and a lower overflow-section, andv suction and discharge-pipes respectivelyl connecting the ump With said upper and intermediate v a `ve-sections.

17. lii a pasteurizing apparatus, the com-- bination of a plurality of tanks for the steril-y izing liquid, valve-controlled heating-means forsaid liquid extraneous of the tanks, transfer-pipes communicating with the tanks, a rotary-plug valve common to said pipes, having two sections one above the other with a'partition'separating them and passages in the valve-casing through which said sections intere ommunicate, and suction and dischargepipes each connecting the pump with one of.

said valve-sections'.

T8. In a bination of a pluralityof tanks for the sterilizing li uid,`valvecontrolled heating-means for said iquid extraneous oi the tanks, transfer-pipes vcommunicatiug with the tanks, a

` rotary plug-valve common to said pipes, iiav-.

ing an upper intermediate section ivitl pasteurizing apparatus, the coinesaeia the valve-casing through which said sections intercommunicate, and a lower v overiou'f-section provided with a discharge-pipe, and suction and discharge pipes yconnecting the pump respectively with saidupper and intermediate sections. v

19, In a pasteurizing apparatus, the coinbination of a plurality of tanks for the sterilliquid, a transferipe, a suction-pipe and a return-pipe on each tank, a valve coinmon to the transfer-pipes, second valve common to the suction-pipes a third valve common to the return-pipes, a steamjet pump communicating with said suction and return-pipes, a steam-supply pipe leading' to said pump and containing a va' ve, 'and gear-connections between the valves operative from a single point on the apparatus to simultaneously set them, for the purpose set forthg 20. In a p'asteurizingapparatus, thecombination of a plurality of tanks for the sterilizing liquid, a transferipe, a suction-pipe and a return pipe on eac tank, a valve common to the transfer-pipes, a second valve common to the suction-pipes and a third "valve common to the return-pipes, a heater and pump included in said suction and returnipes, a steam-supply pipe leading to Said eater and containing a valve, and means for setting the valves.

21. In a pasteurizing apparatus, the coinl bination of a plurality of tanksiorv the sterilizing liquid, a transfer-pipe oiil each ltank near its top, `a suction-pipe on each tank near its bottom and a return-pipeon each tankstill `nearer its bottom, a valve lcommon tof the transfer-pipes, a second valve common toV the suction-pipes and a third valve common to the return-pipes, a steam-jet pump coinmunicating with said suction and returnpipes, and a steam-supply'pi e leading to said pump and containing a va ve. l

22.' In a'pasteurizing apparatus, the combination `of a plurality of tanks for the sterilizing liquid, a transfer-pipe on each tank near its top, a suction-pipe on each tank near its bottom anda return pipe on eachtank still nearer its bottom, Avalves, in the pipes e* for opening and closing communicationtween them, and a heater having communication 'with said suction and return pipes controllable through the valves therein, .said valves containing ports operatinff to direct a relatively large quant-ity of the liquid'rom the heater into one tank 'While directing a relatively small quantity 'thereof into another tank for heating its contents.

' 23;'In a pasteuriziiig-apparatus,the'com- .liinatio with a tankfor the sterilizing liquid,

- of a suction-pipeand -aAreturn-pipe com- Supply pipe leading no' Said pump and. ccntai y tions between the "alves operative ironia Ipump-valve.. i p, 4 t v M x 28. In a pasteurizing apparatus, v io cloni-2T pressure-actuated valve in said pump,l and a thermostat-device controlling theairpressure action on said. pump-valve.

24v. In a pasteurizing apparatus, the coinbination with a tank for the sterilizing liquid, of a suction-pipe and a return-pipe'fcommunieatingwith said tank, a stea'ni-jetpunip vhaving itssuction aiidmdischarge sides 'connected withsaid pipes, respectively, a steamsu'pply pipe leading to saidpump, va valve in said pump on asprin -pressed stem, afdi'anected with said pipes, respectively, a steani-I ump', ,an pressure-actuated valve in sai pump, a thermostat-device controlling the air-pressure aetioii on said pump-valve, and means iior regulating the operation of the.thermostat-device on said air-'pressure valve.

2 6. In a pasteurizing apparatus, the coinbination with a tank for the st-erilizing liquid., of a suctionipe and a return-pipe come municating with said tank, a steam-j et pump havin its suction and discharge sides connecte with said pipes, respectively, a steamsupply pipe leading to said pump, a valve in sai pump on a spring-pressed stem, a diaphragm-device With which said stem is connected, an air-pressure supply-pipe leading tc the diaphragm-device and containing a spring-seated valve, a stem for opening the air-pressure valve, a thermostat-device in the course of circulation of the pump', a lever,

engaging at one end With the thermostat-device, a set-screw ivorking in the opposite endA oi the lever against said stem of the air-pressure valve and carrying a pressure-sf. ating with which sai iiniing'er, and a diai-device ger coperates.

27. In a pasteurizing apparatus, the coin-A.

hinatio'n oi a plurality of tanks for tlie sterilizing liquid, a .transfer-pipe, a'suction-pipe i pipes, a steam-supply pipe leading to said singie point on the apparatus to simultaneously set them, an airrassure-actuated ug a valve, gear-connecl valve in said; ump, anda t ermostat-d'e'vice.

controlling t e air-pressureactic ,l

.en Said' pipes, a steam-supply pipe leading to said pump and containing a valve, gear-connec ously set them, a valve in said pump on a pump-included in said suction and return phragm-dcvice and Containing a spring-seat- .screwworking in the cpposi a end of the `lemr A agalnst said stem of the an-press1.n'e valve ates.

s `mum number of three, for the steriliz-ing bination oi'a plurality of tanks for.' the sterilizi'ng liquid, a transfer-pipe, a suction-pipe and a returnfpipe on each tank, a valve com mon to vthe transfer-pipes,v a second valve' common to. the suct1on-pipes and a third valve common to the return pipes, a steamjet pump included in said suction and retnrn/ tions between the valves operative from a single point oni the apparatus to simulta neously set them,a valve in said'pump on a springrpressed stem, a diaphragm-device With which said stem is connected, a valved air-pressure supply-pipe leading to the dia phragm device, and a thermostat device controlling the air-pressure valve.

29. ln a pasteurizing apparatus, the combination of a plurality of tanks .for the sterilizing liquid', a transfer-pipe, a suetion-pipe and a return. pipe on. each tank, a valve oommon to the transfenpipes', a second valve common to the suction-pipes and a thirdvalve common to the return-pipes, a steamjet pump included in said suetion and 'return pipes, a steam-supply pipe leading to said pump and containing a valve, gear-pormentions between the valves operative from a single point on the apparatus to simultaneouslyv set them, an .air-pressure-aetna-ted valve in said pump, a thermostat-device in the course of circulation oi the pump controlling the air-pressure action on said pumpvalve,- and means for regulating the o era-- tion of the vthermostat-deiice on sai air-'- pressure valve.

30, In a pasteurizing apparatus, the combination of a pluralitj)7 of tanks for 'thev stirilizing liquifh a transteepipe, "alsuetimi-p.ik and a return-pipe on eaehtank, a valve com mon to the .tran.sfer-pipes,' av second valve common to the suction-pipes 'and a third valve common to the return-pipes, a steampipes, a steam-supply ipe leading to said pump and containing a valV {ear-frumentions betwcen the valves operative from a single point on the apparatus to simultanespringressed stem, a diaphragm-device With Wneh sa1d stem 1s eonnectedhan airpressure supply-pipe leading to the diaed valve, a stem for o )ening the air-pressure valve, a-thcrlnostat-iuwiee in the eourse of circulation of the pump, a lever engaging at" cne end with the ther-nn MJifdevice, a setand carrying a pressureesetting linger, and a dial-device Wit 3. which said linger cooper- 31. ln a .pasteurizing apparatus, the comblnation of a plurahtyof tanks, to the mimesame liquid, each having extending from it a transw fer-pipe, a suction-pipe and a return-pipe, a

`valve common to the transferpipes, a second. valve common `to the suctlon-p'lpes and a third valve common tothe return-pipes, a rotatable operating-rod having similar gearf connections with said valves adapted to turn them to the same extent and' thereby set them with each complete rotation i" sani rod, a steam-jet pump having communica tion with said suction and return-pipes ceu-y trolled through the valves therein, a steam.- su-pply pipe leading to said pump, and a va ve in said supply-pipe having a gearmcmv` nection with the operating-rod producinv" diilerent extent oi turning `thesteam-valve by each complete rotation of said rod.

ln a pasteurizing apparatus, the combination of a plurality or" tanks, to the mini` mum number v of three, fon the vsterilizing liquid, each havingextending from it a transA fer and overflow pipeand a suetion-pipe and a return-pipe, a valve common to said firsti named pipes, having a transfer-section and anoveriow-section, a second valve ,commonA to the su'ction-plpes anda third valve com :non to the returnfpipes, a rotatable operating-rod having similar gear-connections'with said 'valves adapted toturn them to the same extent and thereby set them with each complete rotation oi said rod, a steam-jet pump having commuin'eation with said suction and return-pipes controlled through the valves therein, a steam-supply pipe leading to said pump, and a valve in said supply-pipe having a gear-connection with the operating rod producing a different extent of turning the steam-valveby the complete retat :m of said` rod.

.33. In a pasteurizing apfuuuU5s` com-` bination of a plurality of tanks, tv le minimum number of three, for thev sterilizing liquid, each havingexte'nding from it, near its top, a transfer and overflow pipe, from near its 'bottom a suction-pipe and from nearer its bottom a return-pipe, a valve. com-1 mon to said iirst-named pipes,'a second valve common to the suction-pipes and a third valve common-to the return-pipes, a rotatable operating rod having similar gear-eonnec tions With said valves adapted to ti "n them to the same extent and thereby set them with each complete'rotation of said rod, a steamjet pump having eonmiunieatien With said suction and return pipes controlled through i the' valves therein, a steani-supplyA pipe lead ing to said pump, and a valve in said supply pipe having a gearconnection With the operating rod producing a dnfe'rent extent' of turning thest-eam-valve by the complete rotation ,of said rod, t

34. In a pasteurizing apparatus, the oombination of a pluralit)T of tanks, to the minimum number of three, for the steriliz' liquid, each having extending from it a trans ile ier-pipe, a suction-pipe-eud a return-pipe, e valve common to the transfer-pipes, e veve common te the Suction-pipes and veive comugon to the return-pipes, retateoe operating red iievirig similar gear-eoiirieetions with said valves edepted to turi them te the saure extent and thereby set them with each complete rotation oi said rod, e, steamjet pump having communication with said suction and return-pipes controiied tlrough the vaives therein, a steam-supply pipe ieading to seidcpump, a valve in seid pipe having ye gear-connection with the operating-rod producing a different extent of turning the steam-valve by the complete rotation of said rod, and a- Water-circuiating pump coperating with the steam-jet pump.

35. pasteuriziug appare-tus comprising, in Combination, tanks l, 2, 3, each. heviug a. transfer-,diie extending from vits portion, suctioripipe extending freer it toward its bottom aud e retten-pipe' extending from nearer its b'ttom, e traire couimon te the transfer-pipes, a secou. valve common to the suction-pipes and a third veive common to the return-pipes, e rotatable operating-rod having a siX-to-oiie gearcoiuiection with cach ot seid Valves, e steamjet pump having communication with said suction and return pipes controlled through the valves therein, e steam-supply pipe leading to said mmp, a valve in said supply-pipe having amuleto-one gear-connection withv the operating-rod, a liquid-circulating pump coperetiug with the steam-jet pump, a thermostat-device interposed in the course oi' the pump-circulated liquid, e valvein said jetpump, and an' air pressure actuated diaphragm-device controllabiy connected with the. jet-pump valve and having a pressureshut-off Valve in operative connection with the thermostat-device, all, substantially as and for the purpose set forth.

JHN T, H. PAUL. in presence oie'. H. LANDES, E. A. SCHAEFER. 

